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Geography and Oceanography - Chapter 16 ppsx

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Ocean Remote Sensing from Satellites Ted Strub, Burt 406 tstrub@coas.oregonstate.edu http://cioss.coas.oregonstate.edu/CIOSS/ • General Background • Examples, Measuring – Surface Temperature – Ocean Color/Optics – Sea Surface Height & Currents – Surface Wind Stress • New technology http://response.restoration.noaa.gov/ Gulf Coast oil spill: Satellite “images” may “track” surface features: IR surface temperatures, visible features, …??? What can we really see? Early Days 1888 Remote Sensing Pioneers Why Satellites? • Oceans are vast, sparsely occupied – satellites provide uniform sampling, daily-to-monthly fields. • Ship time is expensive • Satellites can acquire measurements quickly over large areas BUT… • Space: a harsh environment for acquiring measurements • Cost – Satellites are also expensive, but “global” (international) • Risk – If satellites fail, service calls are even more expensive • Must measure through intervening atmosphere • Can‟t acquire sub-surface measurements • Can only measure a half-dozen variables, at the “surface” – • But: We can measure wind forcing and response [...]... cover >50% of the ocean and obscure visible and IR radiation “Space Junk” 195 8-2 008 50 Years of Orbital Trash “Who you gonna call?” WALL-E Space Debris Space Debris Space Debris Space Debris Space Debris Space Debris 50 Specific Examples Sea Surface Temperature (SST) Perhaps the most „standard‟ measurement from satellites Passive meaurement Traditionally used infrared (IR) emission - strong signal, obscured... validation IR or μ-wave Emission raw data processing / dissemination Why Use Microwave? Clouds! Two-days of Infrared Two-days of Microwave Surface Temperature: 1 km IR SST: 26 Sept 1998 Bathymetry Specific Examples Ocean color (chlorophyll) Passive measurement Measures light scattered and transmitted upward through the ocean surface - its „color‟ (careful to distinguish between „transmission‟ and „reflection‟)... field-of-view Components of a passive “ocean color” remote sensing system Using Visible wavelengths sensor source signal calibration/ validation Absorption and scattering of visible light – depends on pigments in the water raw data processing / dissemination The “color” is the wavelength that is not absorbed! Surface Temperature and Chlorophyll: 1 km SST: 26 Sept 1998 Bathymetry Chl-a Pigment: 2 6-2 7... Active Radar – Altimeter: Measures SSH ?what is that? =SSHd SSH= Surface Height, Temperature and Chlorophyll: 1 km SST: 26 Sept 1998 SSH: 2 Altimeters Sept 1998 Chl-a Pigment: 2 6-2 7 Sept 1998 Specific Examples Wind & Wind Stress (“tau” - τ) Active measurement, using microwave radar to get “vector winds” – speed and direction  Pulse sent from satellite to ocean surface, then scattered depending on surface... processing and averaging, it is possible to calculate:  Ocean currents, eddies (scales > 6 0-1 00 km)  Deviations in ocean surface due to bathymetry  Gradual sea level rise due to global warming  Deviations in ocean surface due to internal physical variability (heat, salinity) Components of an active radar “altimeter” system For sea level: Transmit at nadir (directly beneath satellite) source and sensor... used infrared (IR) emission - strong signal, obscured by clouds More recently using Microwave - can see through clouds, but the signal is weak - microwave also provides other data such as wind speed, water vapor, rain, ice Temperature is important because of its relationship to the heat budget (global warming) and because it‟s diagnostic of currents, upwelling etc… Components of a passive “SST” remote...Orbits Determine Sampling Geostationary Orbit - GEO 36,000km altitude (wide view) Stays over same location Can document evolving systems High temporal resolution Lower spatial resolution? Not necessarily – can “stare” for longer exposures No polar coverage “Polar” Orbit (Low Earth Orbit LEO) 85 0-1 000 km altitude Travels nearly over poles Sees almost whole globe Lower temporal... Equatorial plane Low Earth Orbits are inclined from the equatorial plane Specialized orbits are used for different purposes • Sun-synchronous orbits cross the equator at the same time each solar day • Low inclination orbits are used to look more closely at tropical processes • Exact-repeat orbits fill in a grid of orbit tracks over X days, then repeat exactly A Global System of Geosynchronous Satellites... globe, maintained by nations that need the data The first “weather satellites” were essentially TV cameras in space For the first time, we could see distant storms developing and approaching The very first satellites carried film cameras and were not looking at weather How did the film get to earth? Low Earth Orbits (“Polar Orbiting”): The orbital plane of the satellite remains fairly constant while the... Pulse sent from satellite to ocean surface, then scattered depending on surface roughness  Surface roughness (capillary waves) depends on wind stress  Strength of return to satellite gives wind stress and direction . latitudes: Clouds cover >50% of the ocean and obscure visible and IR radiation. “Space Junk” 195 8-2 008 50 Years of Orbital Trash “Who you gonna call?” WALL-E Space Debris Space Debris Space. right) over a 1-week period shows some of the features evident in the instantaneous satellite image (below left), without the detailed filaments and swirls caused by jets and eddies in the. intervening atmosphere • Can‟t acquire sub-surface measurements • Can only measure a half-dozen variables, at the “surface” – • But: We can measure wind forcing and response

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